Research Article Over 19 W Single-Mode 1545 nm Er,Yb Codoped All-Fiber Laser
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1 Hindawi Advances in Condensed Matter Physics Volume 217, Article ID , 5 pages Research Article Over 19 W Single-Mode 1545 nm Er,Yb Codoped All-Fiber Laser Jiadong Wu, 1,2 Chunxiang Zhang, 3 Jun Liu, 1,2 Ting Zhao, 4 Weichao Yao, 1 Pinghua Tang, 3 Le Zhang, 1,5 and Hao Chen 1,5 1 Jiangsu Key Laboratory of Advanced Laser Materials and Devices, School of Physics and Electronic Engineering, JiangsuNormalUniversity,Xuzhou,Jiangsu221116,China 2 International Collaborative Laboratory of 2D Materials for Optoelectronics Science and Technology, Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province, College of Optoelectronic Engineering, Shenzhen University, Shenzhen 5186, China 3 Laboratory for Micro-/Nano-Optoelectronic Devices of Ministry of Education, IFSA Collaborative Innovation Center, School of Physics and Electronics, Hunan University, Changsha 4182, China 4 School of Electronic Engineering, Nanjing Xiaozhuang University, Nanjing, Jiangsu , China 5 Jiangsu Collaborative Innovation Center of Advanced Laser Technology and Emerging Industry, Jiangsu Normal University, Xuzhou , China Correspondence should be addressed to Jun Liu; liuj1987@szu.edu.cn and Hao Chen; chenhao@jsnu.edu.cn Received 27 June 217; Revised 15 August 217; Accepted 24 August 217; Published 4 October 217 Academic Editor: Jörg Fink Copyright 217 Jiadong Wu et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. We report a high-power cladding-pumped Er,Yb codoped all-fiber laser with truly single transverse mode output. The fiber laser is designed to operate at 1545 nm by the use of a pair of fiber Bragg gratings (FBGs) to lock and narrow the output spectrum, which can be very useful in generating the eye-safe 165 nm laser emission through the Stimulated Raman Scattering (SRS) in silica fibers that is of interest in many applications. Two pieces of standard single-mode fibers are inserted into the laser cavity and output port to guarantee the truly single-mode output as well as good compatibility with other standard fiber components. We have obtained a maximum output power of 19.2 W at nm with a FWHM spectral width of.8 nm, corresponding to an average overall slope efficiency of 31.9% with respect to the launched pump power. This is, to the best of our knowledge, the highest output power reported from simple all-fiber single-mode Er,Yb codoped laser oscillator architecture. 1. Introduction High-power fiber lasers in the eye-safe wavelength regime around μm have attracted considerable attention in variousapplicationssuchasspectroscopy,remotesensing, rangefinding,andfree-spaceandsatellitecommunications. Cladding-pumped Er,Yb codoped fiber laser systems provide a common approach to produce high-power laser emissions in this wavelength region owing to the commercially available efficient double clad gain fiber and high-power InGaAs laser diodes at 98 nm as a pump source [1 6]. In 27, Jeong et al. achieved 297 W of output power at μm inan Er,Yb codoped fiber laser, which is the highest output power achieved with the Er,Yb codoped fibers until now [1]. However, the vast majority of high-power Er,Yb codoped laser systems reported so far were implemented with large mode area (LMA) gain fibers supporting tens or even hundreds of modes to mitigate the harmful nonlinear effects, which, unfortunately, degrade the output laser beam quality [2 4]. In addition, many high-power laser configurations incorporate several free-space optical components, increasing the complexity of the system and thus cost of maintenance. Nevertheless, for many applications in the eye-safe wavelength range, the requirement for high output power is also accompanied by the need of good beam quality and high efficiency resulting from simple laser structures. All-fiber geometries without free-space optics can offer alignment-free, efficient, compact, and reliable laser architecture. Single-mode all-fiber Er,Yb codoped laser systems have naturally become an attractive candidate for achieving high output power level while maintaining good laser beam quality to meet the requirement for particular applications. Nowadays, more than 1 W output
2 2 Advances in Condensed Matter Physics Output SMF 976 nm LD Er,Yb codoped fiber Residual pump DC Leakage DC 1 m LR FBG2 Combiner SMF HR FBG1 1 m 976 nm LD Figure 1: Experimental schematic of the single-mode all-fiber Er,Yb codoped laser. DC: dichroic mirror; SMF: standard single-mode fiber; FBG: fiber Bragg grating. powers of single-mode laser emissions at 1.5 μm in the Er,Yb codoped laser systems have been achieved based on the more complex master oscillator power amplifier (MOPA) configurations [7, 8], while the extremely simple all-fiber Er,Yb codoped fiber laser oscillators still remain of a limited output power level of several watts [9 11]. Inthispaper,weuseasimpleandcompactcavitydesign with two pieces of standard single-mode fiber incorporated into the laser resonator and the output port, respectively, and demonstrate a truly single-mode high-power Er,Yb codoped all-fiber laser based on a slightly multimode gain fiber. The operating wavelength of the fiber laser is locked at 1545 nm, which corresponds to the first-order Stokes wavelength of 1658 nm that can be used to precisely generate the dual mid-ir laser emissions of 2.7 μm and 4.3μm through the nonlinear optical parametric frequency conversion [12 14]. A maximum overall output power of 19.2 W is obtained at nmwithaFWHMspectralwidthof.8nmandan overall slope efficiency of 31.9%, limited only by the available pump power. To the best of our knowledge, this is so far the highest output power reported from all-fiber single-mode Er,Yb codoped laser oscillators. 2. Experiment The experimental schematic of the single-mode all-fiber Er,Yb codoped fiber laser is shown in Figure 1. The gain medium was a 3 m long Er,Yb codoped multimode doublecladfiber(nufern,mm-eydf-12/13)withanominal cladding-pump absorption of 3.1 db/m at 915 nm, which had acoreof12μm diameter and.2 NA, and a pure silica innercladding of 13 μm diameter and.46 NA covered with a low refractive index Acrylate outcladding also as protective coating. The gain fiber had a V number (cut-off frequency or normalized frequency) of 4.8, suggesting the number of laser modes that the gain fiber can support is around 11. Therefore, a piece of standard single-mode-fiber was inserted as a spatial filter into the new laser cavity with the output port made of another piece of standard single-mode fiber, in order to guarantee truly single-mode laser output and at thesametimeeliminatetheresidualpumpinthecladding and other unwanted laser modes coupled into the cladding by using a high-index gel. The splicing between the unmatched fiberswascarefullycarriedoutbyaspecialtysplicer(fujikura, FSM-1P+) with splicing loss of below.2 db. The heat load yielded from quantum defect over the gain fiber was dissipated by simple fan-cooling. The lasing feedback was provided by a pair of FBGs written in a compatible single-mode double clad passive fiber (Nufern, GDF-155). FBG1 is highly reflective with a peak reflectivity of 99% and spectral bandwidth of.5 nm at nm. FBG2 is a 1% low-reflection output coupler with thecenterwavelengthof1544.6nmandbandwidthof.7nm, as shown in Figure 2. Due to limited effective reflectivity and slight shift of center wavelength and bandwidth for the two FBGs, as well as possible laser spectral broadening in the high-power operation, some power leakage may occur through the high-reflection FBG1 end. Thus, we also monitored the possible power leakage and corresponding spectrumfromthefreeendfacetoffbg1.bothoutputend facets of the fiber laser were angle-cleaved at 8 to suppress the impact of Fresnel reflections from the uncoated fiber facets on the laser stability as well as the corresponding broadband feedback and then to reduce the 1 μm parasitic lasing resulting from transitions of some Yb ions excluded from the energy transfer process between Yb and Er ions. Two 45 dichroic mirrors with high-reflection at the laser wavelength and high-transmission in the 1 μm wavelength band were inserted into the output path to steer the laser beam from the possible 1 μm parasiticlaserformeasurement. Two commercial fiber-coupled 35 W wavelength stabilized 976 nm laser diodes were served as the pump source, the output ports of which were directly spliced to a (2 + 1) 1 pump combiner to cladding-pump the gain fiber in the backward pumping regime. Both pump laser diodes were spectrally narrowed and locked at 976 nm by a volume Bragg grating with a 3 db spectral width of.5 nm to match the absorption peak of the Er,Yb codoped fiber. The spectral characteristics of the laser output were recorded using an optical spectrum analyzer (AQ637C, Yokogawa). 3. Results and Discussion The lasing characteristics of the single-mode all-fiber Er,Yb codoped laser were evaluated. Figure 3 shows the output powers from the single-mode fiber output end as a function of the launched pump power. The laser reached threshold at alaunchedpumppowerof 1 W and generated an output
3 Advances in Condensed Matter Physics 3 35 Intensity (dbm) : nm Δ :.5 nm : nm Δ :.7 nm Intensity (a.u.) : nm Δ :.8 nm Intensity (a.u.) nm Wavelength (nm) Wavelength (nm) HR FBG LR FBG Figure 2: Measured transmission spectrum and reflection spectrum of the high-reflection (HR) FBG (red line) and low-reflection (LR) FBG (blue dash), respectively. Output power (W) Lasing Fit = 35.% = 31.9% Parasitic lasing = 25.7% Launched pump power (W) Figure 3: Laser output powers as a function of the launched pump power. powerof19.2wforthemaximumlaunchedpumppower of 62.3 W, corresponding to an average slope efficiency of 31.9%withrespecttothelaunchedpumppower.Theoutput laser powers showed a linear dependence with the launched pump power over the whole pump range. The output powers remained quite stable during the whole measurement. However, parasitic lasing of Yb at 16.4 nm began to oscillate at thelaunchedpumppowerof44.2w,andanoveralloutput power of 2.1 W was yielded at the maximum launched pump power from both fiber ends.the 1 μm parasitic oscillation reduced the lasing slope efficiency from 35% to 25.7%, which can be seen obviously in Figure 3. Despite this, no roll-off ~1 m lasing Wavelength (nm) Threshold 1 W 19.2 W Figure 4: Laser output spectrum from standard single-mode fiber end and spectrum of the leaked laser from the high-reflection FBG1 end in comparison. Inset: measured spectrum of 1 μm parasitic lasing. resulting from the unfavorable nonlinear effects or thermal loading was observed. The leaked laser power from the FBG1 end was.2 W, which is acceptable due to the limited effective reflectivity of the high-reflection FBG. In addition, it is worth noting that the fiber laser was operated in the backward pumping regime to avoid any gain fiber burning adjacent to the combiner that commonly occurred in the forward pumping regime due to the abrupt change of temperature gradient in this position [15]. Figure 4 shows the output spectral evolution at different laser power levels from the standard single-mode fiber output end. We can see that the laser center wavelength is redshifted from nm near the threshold to nm at the output power of 19.2 W, which is primarily attributed to the temperature dependence of reflection wavelength of the FBGs. The spectral width was broadened from a FWHM linewidth of.4 nm to.8 nm correspondingly. Despite the spectral broadening, the oscillating laser modes still remained within the bandwidth of the two FBGs. In the lasing feedback of each round trip, FBG2 will sample a nominal 1% of the lasing components within its reflection band and reflect it back into the cavity. This portion of light will then be amplified in the backward direction. Upon reaching FBG1 the laser modes within the reflection band are highly reflected (99% in our case) and then successively amplified in the forwarddirectiontowardsfbg2,where9%ofthelaserwill be outcoupled while the small reflected portion returns to the next lasing cycle. In our experiment the laser leakage from FBG1 was primarily attributed to its limited effective reflectivity since the bandwidth of FBG2 is slightly larger than that of FBG1. Despite this, the leaked laser from FBG1 was measured to have roughly the same spectral profile without central dip or any spectral ripples as that from the output end
4 4 Advances in Condensed Matter Physics in terms of center wavelength and width. Thus, both output beams can be simply combined for certain applications. Alternatively,wecanalsouseahigh-reflectionFBGwith much higher reflectivity and broader bandwidth instead to reduce the leakage power from this end. In addition, it is worth noting that the truly single-mode laser output was actually achieved literally through first a piece of standard single-mode fiber in the cavity and then another piece of standard single-mode fiber on the output end withoutsacrificingmuchlaseroutputpowerloss.although theer,ybcodopedgainfiberwascapableofsupporting11 laser modes at 1.5 μm, the amount of output laser modes from the gain fiber was actually much less than specified, owingtotheintensemodecompetitionwhereonlythemodes with lowest loss survived. Besides, the standard single-mode fiber inserted in the cavity and single-mode double clad pig-tailed fiber of FBG2 connected to the Er,Yb codoped fiber further suppressed most of the higher order laser modes yielded in the gain fiber, which ensures a relatively low splicing loss with the standard single-mode fiber. The last piece of standard single-mode fiber in the output end guaranteed a truly single-mode laser output from the 1545 nm all-fiber laser. 4. Conclusions We demonstrate a truly single-mode all-fiber high-power Er,Yb codoped laser at 1545 nm which is potentially significant for some applications. The laser output port is convinced with a piece of standard single-mode fiber to guarantee the truly single-mode output while keeping good compatibility with other standard fiber components. A maximum overall outputpowerof19.2wat nmwithafwhmspectral widthof.8nmisobtainedinthefiberlaser,corresponding to an average slope efficiency of 31.9% with respect to the launched pump power. To the best of our knowledge, this is the highest single-mode output power achieved from a simple all-fiber Er,Yb codoped laser oscillator architecture. Conflicts of Interest The authors declare that there are no conflicts of interest regarding the publication of this paper. Authors Contributions JiadongWuandChunxiangZhangcontributedequallytothe paper. Acknowledgments This work is partially supported by the National Natural Science Fund Foundation of China (Grant nos and and ), the Science and Technology Planning Project of Guangdong Province of China (Grant no. 216B5515), the Educational Commission of Guangdong Province (Grant no. 216KCXTD6), and Natural Science Foundation of SZU (Grant no ). References [1] Y. Jeong, S. Yoo, C. A. Codemard et al., Erbium:ytterbium codoped large-core fiber laser with 297-W continuous-wave output power, IEEE Journal on Selected Topics in Quantum Electronics, vol. 13, no. 3, pp , 27. [2] D. Y. Shen, J. K. Sahu, and W. A. Clarkson, Highly efficient Er, Yb-doped fiber laser with 188 W free-running and > 1 W tunable output power, Optics Express,vol.13,no.13,pp , 25. [3] J.Liu,D.Shen,H.Huang,X.Zhang,X.Liu,andD.Fan, Volume bragg grating-based tunable Er,Yb fiber lasers covering the whole C-and L-band, IEEE Photonics Technology Letters, vol. 25, no. 15, pp , 213. [4] J.W.Kim,P.Jelger,J.K.Sahu,F.Laurell,andW.A.Clarkson, High-power and wavelength-tunable operation of an Er5Yb fiber laser using a volume Bragg grating, Optics Letters,vol.33, no. 11, pp , 28. [5] Y.Jeong,J.K.Sahu,D.B.S.Soh,C.A.Codemard,andJ.Nilsson, High-power tunable single-frequency single-mode erbium:ytterbium codoped large-core fiber master-oscillator power amplifier source, Optics Letters, vol. 3, no. 22, pp , 25. [6] Y. Chen, G. Jiang, S. Chen et al., Mechanically exfoliated black phosphorus as a new saturable absorber for both Q-switching and mode-locking laser operation, Optics Express, vol. 23, no. 1, pp , 215. [7] G. Sobon, D. Sliwinska, K. M. Abramski, and P. Kaczmarek, 1 W single-mode Er/Yb co-doped all-fiber amplifier with suppressed Yb-ASE, Laser Physics Letters, vol. 11, no. 2, Article ID 2513, 214. [8] B. Morasse, S. Aggerb, S. Chatignya, É. Gagnona, J. Sandroa, and C. Poulsen, 1W ASE-free single-mode high-power doublecladding Er 3+ -Yb 3+ amplifier, in Fiber Lasers IV: Technology, Systems, and Applications, vol.6453ofproceeding of the SPIE, 27. [9] S. Gurram, A. Kuruvilla, R. Singh, and K. S. Bindra, Generation of 6.8 W of CW output power at 155 nm using small mode field diameter Er:Yb co-doped double clad fiber in laser oscillator configuration, Laser Physics,vol.27,no.6,p.65113,217. [1] P. Peterka, I. Kašík,V.Kubeček et al., Optimization of erbiumytterbium fibre laser with simple double-clad structure, in Proceedings of the Photonics, Devices and Systems III, vol.618 of Proceeding of the SPIE,26. [11] M. A. Jebali, J.-N. Maran, S. LaRochelle, S. Chatigny, M. A. Lapointe, and E. Gagnon, A 13 W high efficiency in-band cladding-pumped 1593 nm all-fiber erbium-doped fiber laser, in Proceedings of the CLEO: Science and Innovations, CLEO SI 12, p. JTh1I.3, May 212. [12] J.Liu,D.Shen,H.Huang,C.Zhao,X.Zhang,andD.Fan, Highpower and highly efficient operation of wavelength-tunable Raman fiber lasers based on volume Bragg gratings, Optics Express,vol.22,no.6,pp ,214. [13] M. Wang, L. Zhu, W. Chen, and D. Fan, Efficient all-solid-state mid-infrared optical parametric oscillator based on resonantly pumped μm Er:YAG laser, Optics Letters, vol.37,no.13, pp , 212. [14] J. Liu, P. Tang, Y. Chen et al., Highly efficient tunable midinfrared optical parametric oscillator pumped by a wavelength locked, Q-switched Er:YAG laser, Optics Express,vol.23,no.16, pp , 215.
5 Advances in Condensed Matter Physics 5 [15]C.Shi,R.T.Su,H.W.Zhangetal., Experimentalstudyof output characteristics of bi-directional pumping high power fiber amplifier in different pumping schemes, IEEE Photonics Journal,vol.9,no.3,pp.1 1,217.
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